Quantized bulk scalar fields in the Randall-Sundrum brane-model

TL;DR

This paper calculates quantum corrections from a scalar field in the Randall-Sundrum model, revealing effects on vacuum energy and gravity coupling, with implications for the model's self-consistency and boundary conditions.

Contribution

It provides a comprehensive analysis of quantum corrections in the Randall-Sundrum background, including regularization, renormalization, and boundary condition effects, extending previous work.

Findings

Quantum corrections include Casimir energy and induced gravity terms.

Boundary conditions significantly affect the quantum corrections.

Results clarify differences with prior studies.

Abstract

We examine the lowest order quantum corrections to the effective action arising from a quantized real scalar field in the Randall-Sundrum background spacetime. The leading term is the familiar vacuum, or Casimir, energy density. The next term represents an induced gravity term that can renormalize the 4-dimensional Newtonian gravitational constant. The calculations are performed for an arbitrary spacetime dimension. Two inequivalent boundary conditions, corresponding to twisted and untwisted field configurations, are considered. A careful discussion of the regularization and renormalization of the effective action is given, with the relevant counterterms found. It is shown that the requirement of self-consistency of the Randall-Sundrum solution is not simply a matter of minimizing the Casimir energy density. The massless, conformally coupled scalar field results are obtained as a special limiting case of our results. We clarify a number of differences with previous work.